I have 2 vectors that are x and y coordinates of the 8 vertexes of a polygon
x=[5 5 7 7 9 9 5 7]
y=[8 6 6 8 6 8 10 10]
I wanna sort them (clockwise) to obtain the right vectors (to draw the polygon correctly)
x=[5 7 9 9 7 7 5 5]
y=[6 6 6 8 8 10 10 8]
Step 1: Find the unweighted mean of the vertices:
cx = mean(x);
cy = mean(y);
Step 2: Find the angles:
a = atan2(y - cy, x - cx);
Step 3: Find the correct sorted order:
[~, order] = sort(a);
Step 4: Reorder the coordinates:
x = x(order);
y = y(order);
atan2 inputs, or negate the output, or reverse the order vector in step 4) and not worth fussing about. And the question says the purpose is "to draw them" so reversal of the sort makes no difference anyway.
Oct 21, 2020 at 15:10
Python version (numpy) for Ben Voigt's algorithm:
def clockwise(points):
x = points[0,:]
y = points[1,:]
cx = np.mean(x)
cy = np.mean(y)
a = np.arctan2(y - cy, x - cx)
order = a.ravel().argsort()
x = x[order]
y = y[order]
return np.vstack([x,y])
Example:
In [281]: pts
Out[281]:
array([[7, 2, 2, 7],
[5, 1, 5, 1]])
In [282]: clockwise(pts)
Out[282]:
array([[2, 7, 7, 2],
[1, 1, 5, 5]])
I tried the solutions by @ben-voight and @mclafee, but I think they are sorting the wrong way.
When using atan2 the angles are stated in the following way:
The angle is positive for counter-clockwise angles (upper half-plane, y > 0), and negative for clockwise angles (lower half-plane, y < 0).
This means that using ascending sort() of Numpy or Matlab will progress counterclockwise.
This can be verified using the Shoelace equation
So, adjusting the answers mentioned above to use descending sorting the correct solution in Matlab is
cx = mean(x);
cy = mean(y);
a = atan2(y - cy, x - cx);
[~, order] = sort(a, 'descend');
x = x(order);
y = y(order);
The solution in numpy is
import numpy as np
def clockwise(points):
x = points[0,:]
y = points[1,:]
cx = np.mean(x)
cy = np.mean(y)
a = np.arctan2(y - cy, x - cx)
order = a.ravel().argsort()[::-1]
x = x[order]
y = y[order]
return np.vstack([x,y])
pts = np.array([[7, 2, 2, 7],
[5, 1, 5, 1]])
clockwise(pts)
pts = np.array([[1.0, 1.0],
[-1.0, -1.0],
[1.0, -1.0],
[-1.0, 1.0]]).transpose()
clockwise(pts)
Output:
[[7 2 2 7]
[5 1 5 1]]
[[2 7 7 2]
[5 5 1 1]]
[[ 1. -1. 1. -1.]
[ 1. -1. -1. 1.]]
[[-1. 1. 1. -1.]
[ 1. 1. -1. -1.]]
Please notice the [::-1] used to invert arrays / lists.
This algorithm does not apply to non-convex polygons. Instead, consider using MATLAB's poly2cw()
